US20260172673A1
BENDABLE DEVICE, CONTROL SYSTEM AND CONTROL METHOD THEREOF, AND STORAGE MEDIUM
Publication
Application
Classifications
IPC Classifications
CPC Classifications
Applicants
CHENGDU BOE OPTOELECTRONICS TECHNOLOGY CO., LTD., BOE TECHNOLOGY GROUP CO., LTD.
Inventors
Yuanjie LI
Abstract
The present disclosure provides a control method applicable to a bendable device, the bendable device includes a body portion and at least one bendable portion, the bendable portion can be bent or flattened relative to the body portion, wherein the control method includes: generating event data corresponding to the at least one bendable portion based on a spatial position of the at least one bendable portion relative to the body portion, the event data recording an event of the at least one bendable portion occurring relative to the body portion at a signal occurrence moment; controlling the bendable device based on the event data and a current application scenario of the bendable device. The present disclosure also relates to a control system to which the control method can be applied and a bendable device including the control system, and also to a computer-readable storage medium.
Figures
Description
RELATED APPLICATIONS
[0001]The present application is a 35 U.S.C. 371 national stage application of PCT International Application No. PCT/CN 2023/126497, filed on Oct. 25, 2023, the entire disclosure of which is incorporated herein by reference.
TECHNICAL FIELD
[0002]The present disclosure relates to the field of display technology, in particular, to a bendable device as well as a control system and a control method applicable to the bendable device, and also to a computer-readable storage medium, which can be used to implement the control method.
BACKGROUND
[0003]Recently, the flexible display technology becomes increasingly mature, and more and more terminal devices adopting the flexible display technology also appear in the market, including folding-screen mobile phones, mobile phones with a sliding and rolling screen, and wristband mobile phones and so on. These innovative products, which not only provide a larger display area and a convenient carrying way, but also bring an entirely new interactive usage way, bring the consumer a tremendous strike and entirely new usage experience.
SUMMARY
[0004]According to a first aspect of the present disclosure, there is provided a control method applicable to a bendable device including a body portion and at least one bendable portion that can be bent or flattened relative to the body portion, wherein the control method includes following steps: generating event data corresponding to the at least one bendable portion based on a spatial position of the at least one bendable portion relative to the body portion, the event data recording an event of the at least one bendable portion occurring relative to the body portion at a signal occurrence moment; controlling the bendable device based on the event data and a current application scenario of the bendable device.
[0005]According to some exemplary embodiments of the present disclosure, the at least one bendable portion includes a first bendable portion, the body portion includes a body display area, each bendable portion includes a bendable display area, and the current application scenario includes that the body display area and at least the bendable display area of the first bendable portion are collectively displaying a photographing preview interface. The step of generating event data corresponding to the at least one bendable portion based on a spatial position of the at least one bendable portion relative to the body portion includes: generating a bending event and a flattening event corresponding to the first bendable portion during a period that the photographing preview interface is displayed, wherein a signal occurrence moment of the bending event precedes a signal occurrence moment of the flattening event. The step of controlling the bendable device based on the event data and a current application scenario of the bendable device includes: in response to the bending event and the flattening event, controlling the bendable device to take a picture.
[0006]According to some exemplary embodiments of the present disclosure, the control method further includes: in response to a time interval between the signal occurrence moment of the bending event and the signal occurrence moment of the flattening event being greater than or equal to a preset time interval threshold, controlling the bendable device to perform delayed photographing.
[0007]According to some exemplary embodiments of the present disclosure, the control method further includes: determining a delay time for the delayed photographing based on a difference value between the time interval and the time interval threshold.
[0008]According to some exemplary embodiments of the present disclosure, the control method further includes: selecting a delay time for the delayed photographing from a plurality of preset delay times.
[0009]According to some exemplary embodiments of the present disclosure, the at least one bendable portion includes a first bendable portion, the body portion includes a body display area, each bendable portion includes a bendable display area, and the current application scenario includes that the body display area and at least the bendable display area of the first bendable portion are collectively displaying a photographing preview interface. The step of generating event data corresponding to the at least one bendable portion based on a spatial position of the at least one bendable portion relative to the body portion includes: generating a plurality of bending events corresponding to the first bendable portion during a period that the photographing preview interface is displayed. The step of controlling the bendable device based on the event data and a current application scenario of the bendable device includes: in response to a time interval between a signal occurrence moment of a first bending event of the plurality of bending events and a signal occurrence moment of a last bending event of the plurality of bending events being greater than or equal to a preset time interval threshold, controlling the bendable device to perform delayed photographing.
[0010]According to some exemplary embodiments of the present disclosure, the at least one bendable portion includes a first bendable portion, the body portion includes a body display area, each bendable portion includes a bendable display area, and the current application scenario includes that the body display area and at least the bendable display area of the first bendable portion are collectively displaying a video preview interface. The step of generating event data corresponding to the at least one bendable portion based on a spatial position of the at least one bendable portion relative to the body portion includes: generating a bending event and a flattening event corresponding to the first bendable portion during a period that the video preview interface is displayed, wherein a signal occurrence moment of the bending event precedes a signal occurrence moment of the flattening event. The step of controlling the bendable device based on the event data and a current application scenario of the bendable device includes: in response to the bending event and the flattening event, controlling the bendable device to perform video recording.
[0011]According to some exemplary embodiments of the present disclosure, the at least one bendable portion includes a first bendable portion, the body portion includes a body display area, each bendable portion includes a bendable display area, and the current application scenario includes that the body display area and at least the bendable display area of the first bendable portion are collectively displaying a video recording interface. The step of generating event data corresponding to the at least one bendable portion based on a spatial position of the at least one bendable portion relative to the body portion includes: generating a bending event and a flattening event corresponding to the first bendable portion during a period that the video recording interface is displayed, wherein a signal occurrence moment of the bending event precedes a signal occurrence moment of the flattening event. The step of controlling the bendable device based on the event data and a current application scenario of the bendable device includes: in response to the bending event and the flattening event, controlling the bendable device to stop video
[0012]According to some exemplary embodiments of the present disclosure, the at least one bendable portion includes a first bendable portion, the body portion includes a body display area, each bendable portion includes a bendable display area, and the current application scenario includes that the bendable display area of the first bendable portion is displaying a notification that a message is received. The step of generating event data corresponding to the at least one bendable portion based on a spatial position of the at least one bendable portion relative to the body portion includes: generating a bending event corresponding to the first bendable portion during a period that the notification that a message is received is displayed in the bendable display area of the first bendable portion. The step of controlling the bendable device based on the event data and a current application scenario of the bendable device includes: in response to the bending event, displaying content of the message in the body display area of the body portion.
[0013]According to some exemplary embodiments of the present disclosure, the at least one bendable portion includes a first bendable portion, the body portion includes a body display area, each bendable portion includes a bendable display area, and the current application scenario includes that the body display area of the body portion is displaying content of the message. The step of generating event data corresponding to the at least one bendable portion based on a spatial position of the at least one bendable portion relative to the body portion includes: generating a bending event corresponding to the first bendable portion during a period that the content of the message is displayed in the body display area of the body portion. The step of controlling the bendable device based on the event data and a current application scenario of the bendable device includes: in response to the bending event, making the bendable device stop displaying the content of the message and resume an interface prior to displaying the content of the message.
[0014]According to some exemplary embodiments of the present disclosure, the at least one bendable portion includes a first bendable portion, the body portion includes a body display area, each bendable portion includes a bendable display area, and the current application scenario includes that the body display area of the body portion is displaying content of a message, and the control method further includes: receiving a gesture instruction from a user during a period that the body display area of the body portion is displaying the content of the message; in response to the gesture instruction, making the bendable device stop displaying the content of the message and resume an interface prior to displaying the content of the message.
[0015]According to some exemplary embodiments of the present disclosure, the at least one bendable portion includes a first bendable portion, the body portion includes a body display area, each bendable portion includes a bendable display area, and the current application scenario includes that the bendable display area of the first bendable portion is displaying a notification that a message is received. The control method further includes: generating a touch control event in response to a gesture input by a user during a period that the bendable display area of the first bendable portion is displaying a notification that a message is received. The step of generating event data corresponding to the at least one bendable portion based on a spatial position of the at least one bendable portion relative to the body portion includes: generating a bending event corresponding to the first bendable portion during a period that the bendable display area of the first bendable portion is displaying a notification that a message is received. The step of controlling the bendable device based on the event data and a current application scenario of the bendable device includes: in response to the bending event and the touch control event, displaying content of the message in the body display area of the body portion.
[0016]According to some exemplary embodiments of the present disclosure, the at least one bendable portion includes a first bendable portion and a second bendable portion, the first bendable portion is located at a side of the body portion, the second bendable portion is located at an opposing side of the body portion, and the current application scenario includes selecting an operation mode of the bendable device. The step of generating event data corresponding to the at least one bendable portion based on a spatial position of the at least one bendable portion relative to the body portion includes: generating a first bending event corresponding to the first bendable portion and a second bending event corresponding to the second bendable portion when selecting an operation mode of the bendable device. The step of controlling the bendable device based on the event data and a current application scenario of the bendable device includes: in response to the first bending event and the second bending event, controlling the bendable device to operate in a first operation mode.
[0017]According to some exemplary embodiments of the present disclosure, the step of generating event data corresponding to the at least one bendable portion based on a spatial position of the at least one bendable portion relative to the body portion includes: generating a first flattening event corresponding to the first bendable portion and a second flattening event corresponding to the second bendable portion when selecting an operation mode of the bendable device; the step of controlling the bendable device based on the event data and a current application scenario of the bendable device includes: in response to the first flattening event and the second flattening event, controlling the bendable device to operate in a second operation mode, which is different from the first operation mode.
[0018]According to some exemplary embodiments of the present disclosure, the event data includes: a sensor signal, a sensing location, a signal occurrence moment, and status information.
[0019]According to a second aspect of the present disclosure, there is provided a control system applicable to a bendable device including a body portion and at least one bendable portion that can be bent or flattened relative to the body portion, wherein the control system includes: a sensing module including a sensor corresponding to the bendable portion, the sensor being configured to generate a sensor signal based on a spatial position of the bendable portion relative to the body portion; an event data generating module configured to generate event data corresponding to the bendable portion based on the sensor signal, a sensing position of the sensor, a signal occurrence moment, and status information; a control strategy determination module configured to: determine a control strategy for the bendable device based on the event data and a current application scenario of the bendable device; an operation performing module configured to perform an operation to the bendable device based on the control strategy.
[0020]According to some exemplary embodiments of the present disclosure, the sensor includes: a magnet on the body portion and a Hall element on a corresponding bendable portion; or a Hall element on the body portion and a magnet on a corresponding bendable portion.
[0021]According to a third aspect of the present disclosure, there is provided a bendable device including a body portion and at least one bendable portion that can be bent or flattened relative to the body portion, wherein the bendable device includes the control system according to the second aspect of the present disclosure and various exemplary embodiments thereof.
[0022]According to a fourth aspect of the present disclosure, there is provided a non-transient computer-readable storage medium. The computer-readable storage medium stores thereon executable instructions that, when executed by a processor, implement the control method according to the first aspect of the present disclosure and various exemplary embodiments thereof.
BRIEF DESCRIPTION OF DRAWINGS
[0023]Hereinafter, exemplary embodiments of the present disclosure will be described in detail with reference to the drawings; in which:
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[0036]It should be understood that the drawings are merely schematic illustrations of exemplary embodiments of the disclosure, and are not limitations to the disclosure, so they are not necessary to be drawn to scale. Furthermore, in the drawings, the same or similar features are denoted by the same or similar reference numerals.
DETAILED DESCRIPTION
[0037]Various exemplary embodiments of the present disclosure are described below in conjunction with the drawings to enable those having ordinary skills in the art to fully understand and implement the technical solutions according to the present disclosure.
[0038]Referring to
[0039]As shown in view (B) in
[0040]As shown in
[0041]It should be understood that, in the present disclosure, if nothing else is stated, the term “bending” then refers to rotating the bendable portion relative to the body portion through an angular range about where the two join, so that the bendable portion is at an angle to the body portion (and thus the display area of the bendable portion is also at an angle to the display area of the body portion) as shown in the right image in view (B) of
[0042]Referring to
[0043]Referring to
[0044]It should be understood that the sensor shown in
[0045]Referring to
[0046]The sensing module 210 may include a sensor for sensing the spatial position of the bendable portion relative to the body portion, thereby sensing its flattening and bending states relative to the body portion. In case the control system 200 is applied to the bendable device 100 shown in
[0047]The event data generating module 220 may be configured to generate event data corresponding to the bendable portion based on the spatial position of the bendable portion relative to the body portion, the event data recording an event of the bendable portion occurring relative to the body portion at a signal occurrence moment.
[0048]Referring to
[0049]With continued reference to
[0050]After the event data is generated by the event data generating module 220, the generated event data is sent to the control strategy determination module 220.
[0051]The control strategy determination module 230 may be configured to determine a control strategy for the bendable device based on the event data and a current application scenario of the bendable device. It should be understood that, in accordance with the present disclosure, the event data includes data information independent from any control operation and records only the event of the bendable portion occurring at a certain moment relative to the body portion, for example, a bending event or a flattening event). Thus, when an event-based control of the bendable device is desired, the event data can be combined with the current application scenario of the bendable device to achieve an event-based control of the bendable device. Such a combination may be achieved by pre-establishing correlations between event data and application scenarios of the bendable device. Further, as non-limiting examples, the current application scenarios of the bendable device may include displaying a photographing preview interface, displaying a video preview interface, displaying a notification that a message is received, and so on.
[0052]The operation performing module 240 may be configured to perform an operation to the bendable device based on a control strategy determined by the control strategy determination module 230. For example, the operation performing module 240 may control the bendable device to perform operations such as taking a picture, making a video recording, or displaying a message based on the determined control strategy, which will be described in detail below.
[0053]Thus, the control system according to the present disclosure applicable to a bendable device realizes an event-driven based control of the bendable device by packaging the bending and flattening states of the bendable device sensed by the sensors into independent event data and pre-establishing correlations between the event data and various application scenarios of the bendable device. Because the event data for drive control is independent, and its correlation with each application scenario can be predetermined according to actual needs, the control system according to the present disclosure enables very flexible control, and has very excellent expandability.
- [0055]at step 310, generating event data corresponding to at least one bendable portion based on a spatial position of the at least one bendable portion relative to the body portion, the event data recording an event of the at least one bendable portion occurring relative to the body portion at a signal occurrence moment;
- [0056]at step 320, controlling the bendable device based on the event data and a current application scenario of the bendable device.
[0057]At step 310, the control method 300 essentially packages the bending and flattening states of the bendable device, which are sensed by the sensors, into the independent event data that records an event of a corresponding bendable portion with respect to the body portion, which occurs at a signal occurrence moment. In some exemplary embodiments, the event data may include: a sensor signal, a sensing location, a signal occurrence event, and status information. However, in other exemplary embodiments, the event data may include any other suitable information. At step 320, the control method 300 controls the bendable device to operate accordingly, essentially based on the pre-established correlation between the event data and the application scenarios, using the corresponding control strategy. Thus, in conjunction with the control system 200 shown in
[0058]It should be understood that the control method according to the present disclosure applicable to a bendable device realizes event-driven based control of the bendable device by generating independent event data and pre-establishing correlations between the event data and various application scenarios of the bendable device. Because the event data for driving the control is independent, and its correlation with each application scenario can be predetermined according to actual needs, the control method according to the present disclosure enables very flexible control, and has very excellent expandability.
[0059]Referring to
[0060]While
[0061]Referring to
- [0063]at step 310a, during a period that the photographing preview interface is displayed, generating a bending event and a flattening event corresponding to the first bendable portion, wherein a signal occurrence moment of the bending event precedes a signal occurrence moment of the flattening event;
- [0064]at step 320a, in response to the bending event and the flattening event, controlling the bendable device to take a picture.
[0065]In some exemplary embodiments, the control method 300a may further includes the following step: in response to a time interval between the signal occurrence moment of the bending event and the signal occurrence moment of the flattening event being greater than or equal to a preset time interval threshold, controlling the bendable device to perform delayed photographing. When performing delayed photographing, the delay time for delayed photographing may be determined based on a difference value between the time interval and the time interval threshold, or selected from a plurality of preset delay times.
- [0067]at step 310b, generating a plurality of bending events corresponding to the first bendable portion during a period that the photographing preview interface is displayed;
- [0068]at step 320b, in response to a time interval between a signal occurrence moment of a first bending event of the plurality of bending events and a signal occurrence moment of a last bending event of the plurality of bending events being greater than or equal to a preset time interval threshold, controlling the bendable device to perform delayed photographing.
[0069]Thus, the control method 300b may be applied to the following operations by the user: during a period that the bendable device 100 is displaying the photographing preview interface, the user may bend the first bendable portion 120a of the bendable device 100 with a finger to generate a bending event of the first bendable portion 120a relative to the body portion 110, and maintain bending the first bendable portion 120a relative to the body portion 110 to generate a plurality of bending events subsequently with the event data for each bending event differing only in a signal occurrence moment, whereby the control of delayed photographing of the bendable device 100 may be triggered when the time interval between the signal occurrence moment of the first bending event and the signal occurrence moment of the last bending event is greater than or equal to a preset time interval threshold. Similarly, the delay time for delayed photographing may be determined based on the difference value between the time interval and the time interval threshold, or may be selected from a plurality of preset delay times.
- [0071]at step 310c, generating a bending event and a flattening event corresponding to the first bendable portion during a period that the video preview interface is displayed, wherein a signal occurrence moment of the bending event precedes a signal occurrence moment of the flattening event;
- [0072]at step 320c, in response to the bending event and the flattening event, controlling the bendable device to perform video recording.
- [0074]at step 310d, generating a bending event and a flattening event corresponding to the first bendable portion during a period that the video recording interface is displayed, wherein a signal occurrence moment of the bending event precedes a signal occurrence moment of the flattening event;
- [0075]at step 320d, in response to the bending event and the flattening event, controlling the bendable device to stop video recording.
[0076]Referring to
[0077]While an operation of the bendable device 100 by bending and flattening the first bendable portion 120a is shown in
[0078]Referring to
- [0080]at step 310e, generating a bending event corresponding to the first bendable portion during a period that the notification that a message is received is displayed in the bendable display area of the first bendable portion;
- [0081]at step 320e, in response to the bending event, displaying content of the message in the body display area of the body portion.
- [0083]At step 310f, generating a flattening event corresponding to the first bendable portion during a period that the content of the message is displayed in the body display area of the body portion;
- [0084]at step 320f, in response to the flattening event, making the bendable device stop displaying the content of the message and resume an interface prior to displaying the content of the message.
[0085]In addition, in some exemplary embodiments, the control method may further include: receiving a gesture instruction from a user during a period that the body display area of the body portion is displaying the content of the message; and in response to the gesture instruction, making the bendable device stop displaying the content of the message and resume an interface prior to displaying the content of the message. Therefore, a flattening or bending operation of the bendable portion of the bendable device, in conjunction with an input gesture, enables a more flexible control of the bendable device. It should also be understood that the display area of the bendable device is implemented as a touch screen accordingly when receiving gestures input by a user.
[0086]Referring to
[0087]While an operation of the bendable device 100 by bending and flattening the first bendable portion 120a is shown in
- [0089]at step 310g, during a period that the bendable display area of the first bendable portion is displaying a notification that a message is received, generating a bending event corresponding to the first bendable portion, and generating a touch control event in response to a gesture input by a user;
- [0090]at step 320g, in response to the bending event and the touch control event, displaying content of the message in a body display area of the body portion.
[0091]As can be seen, a flattening or bending operation of the bendable portion of the bendable device, in conjunction with an input gesture, enables a more flexible control of the bendable device. It should also be understood that the display area of the bendable device is implemented as a touch screen accordingly when receiving gestures input by a user.
[0092]Referring to
- [0094]at step 310h, generating a first bending event corresponding to the first bendable portion and a second bending event corresponding to the second bendable portion when selecting the operation mode of the bendable device;
- [0095]at step 320h, in response to the first bending event and the second bending event, controlling the bendable device to operate in a first operation mode.
- [0097]at step 330h, generating a first flattening event corresponding to the first bendable portion and a second flattening event corresponding to the second bendable portion when selecting the operation mode of the bendable device;
- [0098]at step 340h, in response to the first flattening event and the second flattening event, controlling the bendable device to operate in a second operation mode, which is different from the first operation mode.
[0099]As a non-limiting example, the first operation mode may be, for example, a clock display mode such that the bendable device may be worn as a wristwatch, and the second operation mode may be, for example, a smartphone mode such that the bendable device may be operated as a smartphone.
[0100]It should be understood that, various exemplary application scenarios with respect to the bendable device of the present disclosure and corresponding control methods are described above, however, these are merely exemplary embodiments and not limiting, and a person having ordinary skills in the art, based on the teaching of the present disclosure, can envision other application scenarios and corresponding control methods, which should be considered as falling within the scope of the present disclosure as well.
[0101]In one or more examples, what is described above in connection with
[0102]As non-limiting examples, such computer-readable storage medium can include RAM, ROM, EEPROM, CD ROM or other optical disk storage, magnetic disk storage or other magnetic storage, flash memory, or any other memory that can be used to store desired program code in the form of instructions or data structures and that can be read by a computer. Furthermore, any connection may be properly referred to as a computer-readable medium. It should be understood, however, that a computer-readable storage medium and a data storage medium do not include connections, carrier waves, signals, or other transient medium, but are instead directed to a non-transient, tangible storage medium. Magnetic disks and optical disks, as used herein, includes compact disc, laser disc, optical disk, digital versatile disc, floppy disk and blue-ray disc where magnetic disks usually reproduce data magnetically, while optical disks reproduce data optically with lasers. Combinations of the above should also be included within the scope of a computer-readable medium.
[0103]Terms used in the present disclosure are only used to describe the embodiments in the present disclosure, and are not intended to limit the present disclosure. As used in the present disclosure, the singular forms “a,” “an,” and “the” are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should be further understood that the terms “comprises” and “comprising” when used in the present disclosure specify the presence of stated features but do not preclude the presence or addition of one or more other features. As used in the present disclosure, the term “and/or” includes any and all combinations of one or more of the associated listed items. It should be understood that, although the terms “first”, “second”, “third”, and so on may be used in the present disclosure to describe various features, these features should not be limited by these terms. These terms are only used to distinguish one feature from another.
[0104]Unless otherwise defined, all terms (including technical and scientific terms) used in the present disclosure have the same meaning as commonly understood by one having ordinary skill in the art to which this disclosure belongs. It should be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the relevant art and/or the context of the present specification, and should not be interpreted in an idealized or overly formal sense unless expressly defined in the present disclosure.
[0105]In the description herein, the term “one embodiment”, “some embodiments”, “an example”, “a specific example”, or “some examples” or the like means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present disclosure. In this specification, exemplary expressions with respect to the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in a suitable manner into any one or more embodiments or examples. Moreover, without contradicting each other and without violating the technical principles, different embodiments or examples and features of different embodiments or examples described in this specification may be combined and assembled by a person having ordinary skills in the art, or some technical features may be omitted from different embodiments or examples described in this specification, and embodiments or examples derived based on such combination, assembly or omission are also regarded as falling within the scope of the present disclosure.
[0106]The methods described in the present disclosure include one or more steps or actions. The method steps and/or actions do not have to be performed in the order described in the present disclosure, but may be performed in a different order. For example, they may be performed simultaneously or in a reverse order, as long as they do not contradict the principles of the solutions described in the present disclosure. Furthermore, according to actual needs, the steps or acts in the methods described in the present disclosure may be replaced with different steps or acts, or additional steps or acts may also be included.
[0107]Although the present disclosure has been described in detail in connection with some exemplary embodiments, it is not to be limited to the specific form described therein. Rather, the scope of the present disclosure is defined only by the appended claims.
Claims
1. A control method applicable to a bendable device comprising a body portion and at least one bendable portion that can be bent or flattened relative to the body portion, wherein the control method comprises following steps:
generating event data corresponding to the at least one bendable portion based on a spatial position of the at least one bendable portion relative to the body portion, the event data recording an event of the at least one bendable portion occurring relative to the body portion at a signal occurrence moment;
controlling the bendable device based on the event data and a current application scenario of the bendable device.
2. The control method according to
wherein:
the step of generating event data corresponding to the at least one bendable portion based on a spatial position of the at least one bendable portion relative to the body portion comprises: generating a bending event and a flattening event corresponding to the first bendable portion during a period that the photographing preview interface is displayed, wherein a signal occurrence moment of the bending event precedes a signal occurrence moment of the flattening event;
the step of controlling the bendable device based on the event data and a current application scenario of the bendable device comprises: in response to the bending event and the flattening event, controlling the bendable device to take a picture.
3. The control method according to
4. The control method according to
5. The control method according to
6. The control method according to
wherein:
the step of generating event data corresponding to the at least one bendable portion based on a spatial position of the at least one bendable portion relative to the body portion comprises: generating a plurality of bending events corresponding to the first bendable portion during a period that the photographing preview interface is displayed;
the step of controlling the bendable device based on the event data and a current application scenario of the bendable device comprises: in response to a time interval between a signal occurrence moment of a first bending event of the plurality of bending events and a signal occurrence moment of a last bending event of the plurality of bending events being greater than or equal to a preset time interval threshold, controlling the bendable device to perform delayed photographing.
7. The control method according to
wherein:
the step of generating event data corresponding to the at least one bendable portion based on a spatial position of the at least one bendable portion relative to the body portion comprises: generating a bending event and a flattening event corresponding to the first bendable portion during a period that the video preview interface is displayed, wherein a signal occurrence moment of the bending event precedes a signal occurrence moment of the flattening event;
the step of controlling the bendable device based on the event data and a current application scenario of the bendable device comprises: in response to the bending event and the flattening event, controlling the bendable device to perform video recording.
8. The control method according to
wherein:
the step of generating event data corresponding to the at least one bendable portion based on a spatial position of the at least one bendable portion relative to the body portion comprises: generating a bending event and a flattening event corresponding to the first bendable portion during a period that the video recording interface is displayed, wherein a signal occurrence moment of the bending event precedes a signal occurrence moment of the flattening event;
the step of controlling the bendable device based on the event data and a current application scenario of the bendable device comprises: in response to the bending event and the flattening event, controlling the bendable device to stop video recording.
9. The control method according to
wherein:
the step of generating event data corresponding to the at least one bendable portion based on a spatial position of the at least one bendable portion relative to the body portion comprises: generating a bending event corresponding to the first bendable portion during a period that the notification that a message is received is displayed in the bendable display area of the first bendable portion;
the step of controlling the bendable device based on the event data and a current application scenario of the bendable device comprises: in response to the bending event, displaying content of the message in the body display area of the body portion.
10. The control method according to
wherein:
the step of generating event data corresponding to the at least one bendable portion based on a spatial position of the at least one bendable portion relative to the body portion comprises: generating a bending event corresponding to the first bendable portion during a period that the content of the message is displayed in the body display area of the body portion;
the step of controlling the bendable device based on the event data and a current application scenario of the bendable device comprises: in response to the bending event, making the bendable device stop displaying the content of the message and resume an interface prior to displaying the content of the message.
11. The control method according to
receiving a gesture instruction from a user during a period that the body display area of the body portion is displaying the content of the message;
in response to the gesture instruction, making the bendable device stop displaying the content of the message and resume an interface prior to displaying the content of the message.
12. The control method according to
wherein:
the control method further comprises: generating a touch control event in response to a gesture input by a user during a period that the bendable display area of the first bendable portion is displaying a notification that a message is received;
the step of generating event data corresponding to the at least one bendable portion based on a spatial position of the at least one bendable portion relative to the body portion comprises: generating a bending event corresponding to the first bendable portion during a period that the bendable display area of the first bendable portion is displaying a notification that a message is received;
the step of controlling the bendable device based on the event data and a current application scenario of the bendable device comprises: in response to the bending event and the touch control event, displaying content of the message in the body display area of the body portion.
13. The control method according to
wherein,
the step of generating event data corresponding to the at least one bendable portion based on a spatial position of the at least one bendable portion relative to the body portion comprises: generating a first bending event corresponding to the first bendable portion and a second bending event corresponding to the second bendable portion when selecting an operation mode of the bendable device;
the step of controlling the bendable device based on the event data and a current application scenario of the bendable device comprises: in response to the first bending event and the second bending event, controlling the bendable device to operate in a first operation mode.
14. The control method according to
the step of generating event data corresponding to the at least one bendable portion based on a spatial position of the at least one bendable portion relative to the body portion comprises: generating a first flattening event corresponding to the first bendable portion and a second flattening event corresponding to the second bendable portion when selecting an operation mode of the bendable device;
the step of controlling the bendable device based on the event data and a current application scenario of the bendable device comprises: in response to the first flattening event and the second flattening event, controlling the bendable device to operate in a second operation mode, which is different from the first operation mode.
15. The control method according to
16. A control system applicable to a bendable device comprising a body portion and at least one bendable portion that can be bent or flattened relative to the body portion, wherein the control system comprises:
a sensing module comprising a sensor corresponding to the bendable portion, the sensor being configured to generate a sensor signal based on a spatial position of the bendable portion relative to the body portion;
an event data generating module configured to generate event data corresponding to the bendable portion based on the sensor signal, a sensing position of the sensor, a signal occurrence moment, and status information;
a control strategy determination module configured to: determine a control strategy for the bendable device based on the event data and a current application scenario of the bendable device;
an operation performing module configured to perform an operation to the bendable device based on the control strategy.
17. The control system according to
a magnet on the body portion and a Hall element on a corresponding bendable portion; or
a Hall element on the body portion and a magnet on a corresponding bendable portion.
18. A bendable device comprising a body portion and at least one bendable portion that can be bent or flattened relative to the body portion, wherein the bendable device comprises the control system according to
19. A non-transient computer-readable storage medium storing thereon executable instructions that, when executed by a processor, implement the control method according to